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@proceedings{58251, author = {Blasco, Sofia and Sukeník, Lukáš and Vácha, Robert}, booktitle = {EMBO Workshop Mechanisms of membrane fusion 2023}, keywords = {design of nanoparticles; liposomes; membrane fusion; molecular dynamics simulations}, language = {eng}, title = {Designing spheroidal nanoparticles to induce membrane fusion of liposomes}, year = {2023} }
TY - CONF ID - 58251 AU - Blasco, Sofia - Sukeník, Lukáš - Vácha, Robert PY - 2023 TI - Designing spheroidal nanoparticles to induce membrane fusion of liposomes KW - design of nanoparticles KW - liposomes KW - membrane fusion KW - molecular dynamics simulations N2 - The efficient delivery of drugs into cells remains a great challenge. Liposome drug delivery often relies on endocytosis to enter the cell, which usually leads to lysosomal degradation, reducing their delivery efficacy. Recently, a novel delivery approach has emerged, utilizing nanoparticle-induced fusion between liposomes and cells, thus avoiding the endocytic pathway. However, the underlying mechanisms of nanoparticle-induced fusion and the ideal properties of such nanoparticles remain largely unknown. We used molecular dynamics simulations to investigate the efficacy of spheroid nanoparticles with different size, prolateness, and ligand interaction strengths in enhancing fusion between vesicles. By systematically varying nanoparticle properties, we identified how each parameter affects the fusion process and the optimal parameter range that promotes fusion. These findings provide valuable insights for the design and optimization of fusogenic nanoparticles with potential biotechnological and biomedical applications. ER -
BLASCO, Sofia, Lukáš SUKENÍK a Robert VÁCHA. Designing spheroidal nanoparticles to induce membrane fusion of liposomes. In \textit{EMBO Workshop Mechanisms of membrane fusion 2023}. 2023.
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